JP4009789B2 - Transmitter - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a transmitter used in combination with a portable CD player or the like.
[0002]
[Prior art]
Even if the CD player is not installed in the automobile, if the FM receiver is installed, the CD can be listened to through the FM receiver by using a portable CD player and a transmitter 20 as shown in FIG. 5, for example. be able to.
[0003]
That is, in FIG. 5, reference numeral 10 denotes a portable type CD player, which has a general configuration, and includes various operation keys 11, an LCD 16 for displaying operation states, a headphone jack 12, and an AC adapter. Etc., and an external power supply jack 15 to which a DC voltage is supplied as an operating voltage.
[0004]
Although not shown, the transmitter 20 includes an FM transmission circuit that converts a stereo audio signal into an FM signal according to the current FM broadcast standard. Further, the transmitter 20 has a plug 21 to be inserted into a car cigarette lighter socket, a headphone plug 22 is connected to the transmitter 20 through a cord 23, and a DC plug 25 is connected through a cord 24.
[0005]
When listening to a CD with an in-vehicle FM receiver, the headphone plug 22 is inserted into the headphone jack 12 and the DC plug 25 is inserted into the power jack 15. Further, the plug 21 is inserted into a cigarette lighter socket of the automobile.
[0006]
Then, the DC voltage obtained in the cigarette lighter socket is taken out by the plug 21 and supplied as the operating voltage to the FM transmitting circuit built in the transmitter 20, and the FM transmitting circuit is in an operating state.
[0007]
Further, the DC voltage taken out by the plug 21 is supplied to the jack 15 through the cord 24 and the plug 25 and becomes the operating voltage of the player 10.
[0008]
Accordingly, the player 11 is set to the playback mode by operating the key 11. Then, the CD is played by the player 10 and the audio signal is output to the headphone jack 12. This audio signal is supplied to the FM transmission circuit of the transmitter 20 through the plug 22 and the cord 23 and converted into an FM signal. This FM signal is transmitted to the outside. At this time, when the knob 26 is turned, the transmission frequency can be changed or adjusted.
[0009]
Therefore, if the transmitted FM signal is received by the FM receiver mounted on the automobile, the CD reproduced by the player 10 can be listened to. At this time, all the functions of the player 10 can be used by operating the key 11.
[0010]
Furthermore, since the power source of the player 10 is obtained from the cigarette lighter socket, it is not necessary to prepare a battery for the player 10. Moreover, there is no need to worry about battery consumption.
[0011]
Thus, according to the transmitter 20, the portable CD player 10 can be used in the same manner as an in-vehicle CD player.
[0012]
[Problems to be solved by the invention]
However, when listening to a CD using the transmitter 20 described above, first, the reception frequency of the in-vehicle FM receiver is set to an available frequency in the FM broadcast band, and then the transmission of the transmitter 20 is performed. It is necessary to adjust the frequency to the reception frequency of the FM receiver. In order to adjust the frequency, it is necessary to change the transmission frequency by turning the knob 26 of the transmitter 20 while listening to the sound from the speaker of the FM receiver.
[0013]
However, such an operation is quite troublesome, and is particularly troublesome in an area where a large number of FM broadcasts are performed as in the United States.
[0014]
The present invention is intended to solve such problems.
[0015]
[Means for Solving the Problems]
For this reason, in the present invention,
A DC plug to be plugged into the external power jack of the audio device;
And the headphone plug is inserted into the headphone jack of the audio equipment,
A transmission circuit that converts an audio signal obtained from the headphone plug into an FM signal of an FM broadcast band and transmits the FM signal;
A receiving circuit;
Non-volatile memory,
Display,
Scan key and
A control circuit for controlling the transmission frequency of the transmission circuit and the reception frequency of the reception circuit;
With a plug that plugs into a car cigarette lighter socket,
The display and the scan key are provided on the outer peripheral surface of the unit body,
The plug is provided protruding from the unit body,
The above memory is
Free frequency data and
The last channel data, which is the data of the transmission frequency used by the transmission circuit when the power was turned off last time, is stored.
When the plug is inserted into the cigarette lighter socket, the DC voltage obtained at the cigarette lighter socket is supplied as the operating voltage to the transmission circuit, the reception circuit and the control circuit through the plug,
The control circuit is
When the DC voltage is supplied as an operating voltage through the plug, the transmitter circuit is inactivated and the receiver circuit is activated.
Read the data of the last channel from the memory and set the receiving frequency of the receiving circuit to the frequency of the last channel used when the power was turned off last time.
It is determined whether the reception frequency of this set last channel is free,
When the reception frequency of this last channel is vacant, the transmission circuit is put into an operating state, the receiving circuit is put into an inoperative state, and
The transmission frequency of the transmission circuit is set to the frequency that was used when the power was turned off last time by the data of the read last channel, and
This set frequency is displayed on the display,
When the set reception frequency of the last channel is not empty, the data of the empty frequency stored in the memory is read and the reception frequency of the receiving circuit is set to the empty frequency.
Determine whether this set reception frequency is free,
When the set frequency is vacant, the transmitter circuit is set to an operating state, the receiver circuit is set to an inactive state, and
The transmission frequency of the transmission circuit is set to the free frequency by the free frequency data stored in the memory, and
This set frequency is displayed on the display ,
When the frequency of the free frequency data stored in the memory is not free, when the scan key is operated, the sensitivity of the receiving circuit is set high, and scanning of the FM broadcast band is started and free. Start frequency detection,
As a result of this scan, when a vacant frequency is detected, the transmitter circuit is put into an operating state, the receiver circuit is put into an inoperative state, and
While setting the transmission frequency of the transmission circuit to a free frequency detected by the scan ,
The set frequency is displayed on the display, and
This set frequency data is stored in the memory as the last channel data,
As a result of the scan, when no vacant frequency is detected, the sensitivity of the receiving circuit is set low, and the FM broadcast band is rescanned to start vacant frequency detection.
As a result of this rescanning, when a vacant frequency is detected, the transmission circuit is set in an operating state, the receiving circuit is set in a non-operating state, and
While setting the transmission frequency of the transmission circuit to a free frequency detected by the rescan,
The set frequency is displayed on the display, and
The set frequency data is stored in the memory as last channel data .
Therefore, a free frequency is automatically selected, transmission is performed at that frequency, and the transmission frequency is displayed on the display to inform the user.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
In FIG. 1, reference numeral 30 denotes a transmitter according to the present invention, which includes a transmission circuit 40 and a reception circuit 50. In this case, the transmission circuit 40 converts the audio signal from the CD player 10 into an FM signal and transmits it. For this reason, the headphone plug 42, the stereo multiplexing circuit 44, the FM modulation circuit 45, the antenna 46.
[0017]
The headphone plug 42 is inserted into the headphone jack 12 of the CD player 10 to take out the left and right channel audio signals L and R from the CD player 10. The stereo multiplexing circuit 44 converts the audio signals L and R from the plug 42 into a stereo multiplexed signal of the same standard as the stereo multiplexed signal in the current FM broadcast.
[0018]
Further, the FM modulation circuit 45 converts the multiplexed signal from the multiplexing circuit 44 into an FM signal of the current FM broadcast standard and supplies it to the antenna 46. For this reason, although not shown, the modulation circuit 45 is constituted by a PLL, and FM modulation is realized by supplying a stereo multiplex signal to the VCO, and the frequency dividing ratio of the variable frequency dividing circuit is changed. Thus, the transmission frequency can be changed.
[0019]
Further, the receiving circuit 50 includes a tuner circuit 51 and a detection circuit 52. Although not shown, the tuner circuit 51 includes an antenna input circuit to an FM demodulation circuit and is configured in a superheterodyne system, and its local oscillation circuit is configured by a PLL VCO. In the FM broadcast band, the reception frequency can be changed to an arbitrary frequency by changing the frequency division ratio of the frequency circuit. Further, the tuner circuit 51 can change the reception sensitivity in a predetermined step.
[0020]
The detection circuit 52 detects, for example, whether or not it is tuned to the broadcast wave signal from the level of the intermediate frequency signal of the tuner circuit 51, and the detection signal S52 is output. Actually, the detection circuit 52 is integrated with the tuner circuit 51 as a one-chip IC, and a tuning instruction signal can be used as the detection signal S52.
[0021]
Further, the transmitter 30 includes a plug 31, a constant voltage circuit 32, and a DC plug 35. In this case, the plug 31 is inserted into a cigarette lighter socket of an automobile and takes out a DC voltage obtained therefrom, and the constant voltage circuit 32 converts the DC voltage taken out by the plug 31 into a voltage V32 having a predetermined magnitude. The voltage is constant. The voltage V32 is output to the DC plug 35 through the cord 34.
[0022]
The output terminal of the constant voltage circuit 32 is connected to the power supply lines of the circuits 44 and 45 through the emitter and collector of the switching transistor 47 and the circuits 51 and 52 through the emitter and collector of the switching transistor 57. Connected to the power line.
[0023]
Further, the transmitter 30 is provided with a microcomputer 60 for system control, to which the output voltage V32 of the constant voltage circuit 32 is supplied as an operating voltage. In the microcomputer 60, for example, a frequency setting routine 100 as shown in FIGS. 3 and 4 is prepared. Further, the frequency dividing ratio is supplied from the output terminals Q1 and Q2 of the microcomputer 60 to the variable frequency dividing circuits of the circuits 45 and 51, respectively, and the control signal for receiving sensitivity is supplied from the output terminal Q3 to the tuner circuit 51. Further, control signals are supplied from the output terminals Q4 and Q5 of the microcomputer 60 to the bases of the transistors 47 and 57, respectively, and the detection signal S52 of the detection circuit 52 is supplied to the input terminal D1 of the microcomputer 60.
[0024]
Further, a scan key 61S, an up key 61U, and a down key 61D are connected to the microcomputer 60 as operation keys, and an LCD 62 and a memory 63 are connected. In this case, the memory 63 is a ROM capable of electrically erasing and writing data, or a RAM backed up by a battery (not shown), that is, the memory 63 is a non-volatile memory. The written data can be retained even when the power is turned off.
[0025]
As will be described later, the memory 63 stores vacant frequency data in the FM broadcast band and data on the frequency of the last channel (when the transmitter 30 is turned off last time). (Transmission frequency data used in the above) is stored.
[0026]
FIG. 2 shows an example of the appearance of the transmitter 30 described above. Plugs 35 and 42 are connected to a main body portion 39 of the transmitter 30 through cords 34 and 43. Further, the main body portion 39 is provided with keys 61S to 61D and an LCD 62, and the plug 31 is integrally provided.
[0027]
In such a configuration, when listening to a CD with an FM receiver of an automobile, the headphone plug 42 is inserted into the headphone jack 12 of the CD player 10 and the DC plug 35 is inserted into the power jack 15. Further, the plug 31 is inserted into the cigarette lighter socket of the automobile.
[0028]
Then, the DC voltage obtained at the cigarette lighter socket is taken out by the plug 31 and supplied to the constant voltage circuit 32, and the DC voltage V 32 is output from the constant voltage circuit 32. The voltage V32 is supplied to the microcomputer 60 as its operating voltage. As a result, the microcomputer 60 starts the processing of the routine 100.
[0029]
Although details of the routine 100 will be described later, when the routine 100 is executed, the transistor 47 is turned on, the voltage V32 is supplied to the circuits 45 and 44 as its operating voltage, and the transmission circuit 40 is in an operating state. Further, the transmission frequency of the transmission circuit 40 is set to a free frequency, and the transmission frequency is displayed on the LCD 62.
[0030]
Therefore, the user matches the reception frequency of the FM receiver mounted on the automobile with the frequency displayed on the LCD 62. Then, since the transmission frequency of the transmission circuit 40 is the frequency displayed on the LCD 62, the FM receiver can correctly tune to the FM signal from the transmission circuit 40 and receive the FM signal.
[0031]
When the CD player 10 is operated in the playback mode, the audio signals L and R reproduced from the CD are extracted from the CD player 10 by the plug 42, and the extracted audio signals L and R are stereo-multiplexed through the code 43. The signal is supplied to the circuit 44 to be a stereo multiplexed signal. The multiplexed signal is supplied to the modulation circuit 45 and converted into an FM signal having a frequency displayed on the LCD 62, and the FM signal is transmitted from the antenna 46.
[0032]
At this time, since the FM receiver mounted on the automobile is tuned to the transmission frequency of the transmission circuit 45, the FM signal can be correctly received. Therefore, the music reproduced by the CD player 10 can be received. Is output from the speaker of the FM receiver mounted on the automobile.
[0033]
Thus, according to the transmitter 30, the CD player 10 can reproduce and listen to music and the like only by setting the reception frequency of the FM receiver to the frequency displayed on the LCD 62.
[0034]
Next, the routine 100 will be described. That is, when the plug 31 of the transmitter 30 is inserted into the cigarette lighter socket of the automobile, the voltage V32 is supplied to the microcomputer 60 as the operating voltage. Then, the processing of the CPU of the microcomputer 60 starts from step 101 of the routine 100. Next, in step 102, each part is initialized, and in step 103, the transistor 47 is turned off by the output of the terminal Q4. At the same time, the transistor 57 is turned on by the output of the terminal Q5.
[0035]
Therefore, since the transistor 47 is turned off at the voltage V32 from the time of step 103, the operating voltage is not supplied to the circuits 44 and 45, and the transmitting circuit 40 becomes inoperative. Further, since the transistor 57 is turned on, an operating voltage is supplied to the circuits 51 and 52, and the receiving circuit 50 is in an operating state.
[0036]
Next, at step 104, the data of the frequency of the last channel is read from the memory 63, and the data of this frequency is converted into the data of the division ratio of the corresponding reception frequency, and the data of this division ratio is converted to the terminal Q2. To the tuner circuit 51 and set in the variable frequency dividing circuit, and the reception frequency is set to the frequency of the last channel. Therefore, from the point of this step 104, the receiving circuit 50 has started reception at the previously used transmission frequency.
[0037]
Subsequently, in step 111, the detection signal S52 is checked to determine whether or not the reception frequency set in step 104 is free (whether broadcasting is being performed at that frequency). When the frequency is free, the process proceeds from step 111 to step 112, where the transistor 47 is turned on by the output of the terminal Q4 and the transistor 57 is turned off by the output of the terminal Q5. The
[0038]
Therefore, since the voltage V32 is supplied as an operating voltage to the circuits 44 and 45 through the transistor 47 from the time of step 112, the transmitting circuit 40 is in an operating state. Further, since the transistor 57 is turned off, the operating voltage is not supplied to the circuits 51 and 52, and the receiving circuit 50 becomes inoperative.
[0039]
Subsequently, in step 113, the data of the frequency of the last channel read out in step 104 is supplied from the terminal Q1 to the modulation circuit 45 and set in the variable frequency dividing circuit, and the transmission frequency is set in the frequency of the last channel. Therefore, from the point of this step 113, the transmission circuit 40 has resumed transmission at the transmission frequency used previously.
[0040]
In step 114, the data of the last channel read in step 104 is converted into display data of the corresponding transmission frequency and supplied to the LCD 62. The transmission frequency set in step 113 is digitally displayed on the LCD 62, and then In step 141, key input is waited.
[0041]
Therefore, the transmitter 30 resumes transmission at the frequency used previously, and the transmission frequency is displayed on the LCD 62, and in this state, the transmitter 30 is waiting for key input.
[0042]
In step 111, when the reception frequency set in step 104 is used, the process proceeds from step 111 to step 121. In this step 121, it is checked whether or not there is data of the next free frequency in the memory 63. The In some cases, the process proceeds from step 121 to step 122. In this step 122, the data of the next free frequency is read from the memory 63, and this data is converted into the data of the frequency division ratio of the corresponding reception frequency. Is then supplied to the tuner circuit 51 and set in the variable frequency dividing circuit, and the reception frequency is set to the next free frequency.
[0043]
Then, in step 111, it is checked whether or not the reception frequency set in step 122 is actually vacant. If it is vacant, the frequency is set as the transmission frequency in steps 112 to 114, and If the transmission frequency is displayed on the LCD 62 and it is not free, steps 121 and 122 are repeated until a free frequency is found.
[0044]
When all the frequencies stored in the memory 62 are not free, the process proceeds from step 121 to step 131. In this step 131, the transistor 47 is turned off by the output of the terminal Q4, and the terminal Q5 is connected. The transistor 57 is turned off by the output. Therefore, from the point of this step 131, both the transmission circuit 40 and the reception circuit 50 are inactivated.
[0045]
Next, in step 132, predetermined display data is supplied to the LCD 62, and it is displayed on the LCD 62 that there is no free frequency. Thereafter, the process proceeds to step 141 and waits for key input.
[0046]
On the other hand, when any key 61S to 61D is pressed while waiting for key input in step 141, the process proceeds from step 141 to step 142, and in step 142, the pressed key is determined. When the pressed key is the scan key 61S, the process proceeds from step 142 to step 143. In this step 143, the transistor 47 is turned off, the transmission circuit 40 is deactivated, and the transistor 57 is turned on. The receiver circuit 50 is turned on and the receiver circuit 50 is activated. Next, at step 144, the tuner circuit 45 is set to the highest sensitivity by the output of the terminal Q3.
[0047]
Subsequently, in step 151, the reception frequency is changed in order by a predetermined frequency step by the output of the terminal Q2, and the FM broadcast band is scanned from the lowest frequency to the highest frequency, and at this scanning, the detection signal S52 is checked. Thus, if there is a free frequency, data of that frequency is written into the memory 63. Thus, in step 151, vacant frequencies in the FM broadcast band are detected in order, and data of the frequencies are stored in the memory 63.
[0048]
When the processing in step 151 is completed, it is determined in step 152 whether or not there is a free frequency when executing step 151. When there is no free frequency, the process proceeds from step 152 to step 153, where it is determined whether or not the current reception sensitivity of the reception circuit 51 is set to the lowest sensitivity.
[0049]
If the sensitivity is not set to the minimum sensitivity, the process proceeds from step 153 to step 154. In this step 154, the reception sensitivity of the reception circuit 51 is lowered by one step, and then the process returns to step 151.
[0050]
Therefore, after that, the FM broadcast band is scanned with a reception sensitivity that is one step lower than before, and free frequencies are detected.
[0051]
If any vacant frequency is found as a result of scanning at any reception sensitivity, this is detected by step 152, and the process proceeds from step 152 to step 161. In step 161, the transistor 47 is turned on and the transmission circuit 40 is activated, and the transistor 57 is turned off and the reception circuit 50 is deactivated.
[0052]
Next, in step 162, the frequency data stored in the memory 63 by the scan in step 151, that is, the lowest frequency data among the free frequency data is read out, and the transmission frequency corresponding to this data is read out. After being converted to data of the frequency division ratio, it is set in the variable frequency dividing circuit of the modulation circuit 45. Therefore, from the time of step 162, transmission of the transmission circuit 45 is performed at the lowest frequency among the free frequencies detected in step 151.
[0053]
Subsequently, the process proceeds to step 163. In this step 163, display data indicating the transmission frequency is supplied to the LCD 62 and the transmission frequency is displayed on the LCD 62. Next, the transmission frequency data at this time is stored in the memory 63. The data is stored as the data of the frequency of the last channel, and then the process returns to step 141 and waits for key input.
[0054]
Thus, a free frequency is detected in steps 143 to 154, transmission is performed using one of the free frequencies in steps 161 to 164, and the transmission frequency is displayed on the LCD 62.
[0055]
Even when the receiving circuit 51 has the lowest sensitivity, the transmitter 30 cannot be used when there is no free frequency.
[0056]
Therefore, in that case, it is determined in steps 152 and 153 that there is no free frequency and the reception sensitivity is the lowest, and the process proceeds from step 153 to step 171. In step 171, the transistors 47 and 57 are turned off and the transmission circuit 40 and the reception circuit 50 are deactivated. Next, in step 172, predetermined display data is supplied to the LCD 62 and is free in the LCD 62. It is displayed that there is no frequency, and then the process returns to step 141 to wait for key input.
[0057]
Furthermore, when the key input wait is in step 141 and the up key 61U or the down key 61D is pressed, the process proceeds from step 141 to step 142. In this case, since the key 61U or 61D, the process proceeds to step 142. Then go to Step 181. In step 181, the transistor 47 is turned on and the transmission circuit 40 is activated, and the transistor 57 is turned off and the reception circuit 50 is deactivated.
[0058]
Next, in step 182, corresponding to the key 61U or 61D, the data of the frequency stored in the memory 63, that is, the data of the next or previous frequency among the data of the empty frequency is read out. The data of the frequency division ratio when the frequency of the output data is used as the transmission frequency is set in the variable frequency dividing circuit of the modulation circuit 45. Accordingly, from this point, the next or previous idle frequency of the previous transmission frequency becomes the new transmission frequency, and transmission of the transmission circuit 40 is performed. Then, the process proceeds to step 163, where the transmission frequency is the LCD 62. Is stored as data of the frequency of the last channel in step 164, and then the process returns to step 141 to wait for key input.
[0059]
Thus, according to the routine 100, when the plug 31 of the transmitter 30 is inserted into the cigarette lighter socket of the automobile, the transmission frequency of the transmission circuit 40 is set to a free frequency and the transmission frequency is displayed on the LCD 62. .
[0060]
Therefore, as described above, when the reception frequency of the FM receiver mounted on the automobile is matched with the frequency displayed on the LCD 62, music reproduced by the CD player 10 can be heard from the speaker of the FM receiver.
[0061]
As described above, according to the transmitter 30, since the transmission frequency is displayed on the LCD 62, the user can easily adjust the reception frequency of the FM receiver to the transmission frequency of the transmitter 30. That is, the music reproduced by the CD player 10 can be listened to only by the same operation as when selecting a general FM broadcast station.
[0062]
Moreover, since the vacant frequency is automatically selected and transmission is performed, the user does not need to perform a key operation for selecting the transmission frequency.
[0063]
In the above description, when the key input is waited at step 141, if the key 61U or 61D is kept pressed for a long period of time, for example, 2 seconds or more, the actual frequency stored in the memory 63 is targeted. If there is a frequency that is actually vacant, the frequency is set as the transmission frequency of the transmission circuit 40, and the transmission frequency can be displayed on the LCD 62.
[0064]
Further, in steps 151 to 154, when an FM broadcast band is scanned to find a free frequency, the FM broadcast band is divided into, for example, a low band and a high band, and when a free frequency is found in the low band, If the scan is completed and the process is not found, the process proceeds to a high-frequency scan and the same process is performed. If a free frequency is found, the scan can be terminated quickly.
[0065]
Further, not only the CD player 10 but also a portable audio device such as an MD player can be used.
[0066]
【The invention's effect】
According to the present invention, since the transmission frequency is displayed on the display, the user can easily adjust the reception frequency of the FM receiver to the transmission frequency. That is, it is possible to listen to music reproduced by a CD player or the like only by the same operation as when selecting a general FM broadcast station.
[0067]
Moreover, since the vacant frequency is automatically selected and transmission is performed, the user does not need to perform a key operation for selecting the transmission frequency.
[Brief description of the drawings]
FIG. 1 is a connection diagram illustrating one embodiment of the present invention.
FIG. 2 is a perspective view showing an embodiment of the present invention.
FIG. 3 is a flowchart showing a part of one embodiment of the present invention.
FIG. 4 is a flowchart showing a continuation of FIG. 3;
FIG. 5 is a perspective view for explaining the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... CD player, 30 ... Transmitter, 31 ... Plug, 32 ... Constant voltage circuit, 35 ... DC plug, 40 ... Transmission circuit, 42 ... Stereo plug, 44 ... Stereo multiplexing circuit, 45 ... Modulation circuit, 46 ... Antenna , 50 ... receiving circuit, 51 ... tuner circuit, 52 ... detection circuit, 60 ... microcomputer, 61D, 61S, 61U ... operation keys, 62 ... LCD, 63 ... memory, 100 ... frequency setting routine

Claims (1)

A DC plug to be plugged into the external power jack of the audio device;
And the headphone plug is inserted into the headphone jack of the audio equipment,
A transmission circuit that converts an audio signal obtained from the headphone plug into an FM signal of an FM broadcast band and transmits the FM signal;
A receiving circuit;
Non-volatile memory,
Display,
Scan key and
A control circuit for controlling the transmission frequency of the transmission circuit and the reception frequency of the reception circuit;
With a plug that plugs into a car cigarette lighter socket,
The display and the scan key are provided on the outer peripheral surface of the unit body,
The plug is provided protruding from the unit body,
The above memory is
Free frequency data and
The last channel data, which is the data of the transmission frequency used by the transmission circuit when the power was turned off last time, is stored.
When the plug is inserted into the cigarette lighter socket, the DC voltage obtained at the cigarette lighter socket is supplied as the operating voltage to the transmission circuit, the reception circuit and the control circuit through the plug,
The control circuit is
When the DC voltage is supplied as an operating voltage through the plug, the transmitter circuit is inactivated and the receiver circuit is activated.
Read the data of the last channel from the memory and set the receiving frequency of the receiving circuit to the frequency of the last channel used when the power was turned off last time.
It is determined whether the reception frequency of this set last channel is free,
When the reception frequency of this last channel is vacant, the transmission circuit is put into an operating state, the receiving circuit is put into an inoperative state, and
The transmission frequency of the transmission circuit is set to the frequency that was used when the power was turned off last time by the data of the read last channel, and
This set frequency is displayed on the display,
When the set reception frequency of the last channel is not empty, the data of the empty frequency stored in the memory is read and the reception frequency of the receiving circuit is set to the empty frequency.
Determine whether this set reception frequency is free,
When the set frequency is vacant, the transmitter circuit is set to an operating state, the receiver circuit is set to an inactive state, and
The transmission frequency of the transmission circuit is set to the free frequency by the free frequency data stored in the memory, and
This set frequency is displayed on the display ,
When the frequency of the free frequency data stored in the memory is not free, when the scan key is operated, the sensitivity of the receiving circuit is set high, and scanning of the FM broadcast band is started and free. Start frequency detection,
As a result of this scan, when a vacant frequency is detected, the transmitter circuit is put into an operating state, the receiver circuit is put into an inoperative state, and
While setting the transmission frequency of the transmission circuit to a free frequency detected by the scan,
The set frequency is displayed on the display, and
This set frequency data is stored in the memory as the last channel data,
As a result of the scan, when no vacant frequency is detected, the sensitivity of the receiving circuit is set low, and the FM broadcast band is rescanned to start vacant frequency detection.
As a result of this rescanning, when a vacant frequency is detected, the transmission circuit is set in an operating state, the receiving circuit is set in a non-operating state, and
While setting the transmission frequency of the transmission circuit to a free frequency detected by the rescan,
The set frequency is displayed on the display, and
A transmitter configured to store data of the set frequency in the memory as last channel data .

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